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38 results on '"Pal, Radha"'

1. [Transitional strength under plasma] Precise estimations of astrophysically relevant electromagnetic transitions of Ar$^{7+}$, Kr$^{7+}$, Xe$^{7+}$, and Rn$^{7+}$ under plasma atmosphere

Author

Biswas, Swapan, Bhowmik, Anal, Das, Arghya, Pal, Radha Raman, and Majumder, Sonjoy

Subjects
Physics - Atomic Physics
Abstract

The growing interest in atomic structures of moderately-stripped alkali-like ions in diagnostic study and modeling of astrophysical and laboratory plasma makes an accurate many-body study of atomic properties inevitable. This work presents transition line parameters in the absence or presence of plasma atmosphere for astrophysically important candidates, Ar$^{7+}$, Kr$^{7+}$, Xe$^{7+}$, and Rn$^{7+}$. We employ relativistic coupled-cluster (RCC) theory, a well-known correlation exhaustive method. In the case of a plasma environment, we use Debye Model. Our calculations agree with experiments available in the literature for ionization potentials, transition strengths of allowed and forbidden selections, and lifetimes of several low-lying states. The unit ratios of length and velocity forms of transition matrix elements are the critical estimation of the accuracy of the transition data presented here, especially for a few presented first time in the literature. We do compare our findings with the available recent theoretical results. Our reported data can be helpful to the astronomer in estimating the density of the plasma environment around the astronomical objects or in the discovery of observational spectra corrected by that environment. The present results should be advantageous in the modeling and diagnostics laboratory plasma, whereas the calculated ionisation potential depression parameters reveal important characteristics of atomic structure.

Published
2023

4. Rudraksha: A Smart Drug And A Smart Nutrients: A Review.

Author

Ghosh, Niladry S., Sachan, Pritee, Pal, Radha, Dubey, Anubhav, and Kumari, Mamta

Subjects
MEDICAL sciences, PATENT law, MEDICAL research, AYURVEDIC medicine, HYPOGLYCEMIC agents
Abstract

Background: Rudraksha has excellent mineral characteristics, making it a smart medication and smart nutrition. In Ayurveda, the highly prized plant is believed to have sprung from Lord Shiva's tears, offering tremendous therapeutic and astrological advantages for human existence. Methodology: To conduct a thorough evaluation of the literature, databases from Springer, Elsevier, PubMed, and Science Direct were used. Result and Discussion : In addition to its scientific use, Rudraksha has unique characteristics that make it possible to heal a wide range of incurable ailments. It also serves a significant spiritual function in a man's everyday life. Biochemical analysis, electromagnetic analysis, and chemical composition can provide all the necessary chemical information about rudraksha. Accurate information about its scientific properties reveals that Rudraksha is a highly potent plant that will greatly benefit our medical research. Additionally, traditional mythological and astrological values describe the various types of Rudraksha; generally, each type has 1-14 faces (Mukhi), each with a unique value. Conclusion: Contemporary medicine has utilized the rich pharmacological and therapeutic properties of rudraksha, such as its analgesic, antioxidant, antifungal, antidiabetic, hepatoprotective, immunomodulator and antidepressant properties. [ABSTRACT FROM AUTHOR]

Published
2024

5. New current-mode precision full-wave rectifier employing single inverted Z-copy current differencing buffered amplifier.

Author

Roy, Suvajit, Paul, Tapas Kumar, and Pal, Radha Raman

Subjects
NOISE, DATA envelopment analysis, TEMPERATURE
Abstract

The objective of this paper is to introduce a new current-mode precision full-wave rectifier configuration using a single inverted Z-copy current differencing buffered amplifier (IZC-CDBA) and two nMOSFETs. The unique feature of the proposed configuration is that it can produce simultaneously both the inverting and non-inverting rectified outputs without changing its architecture. The use of only active components makes the configuration more suited for IC implementation. Moreover, it features low input impedance and high output impedance, making it fully cascadable. In addition, the new design enjoys extremely high-frequency operations. The effects of non-ideal transfer gain and parasitic impedances on the designed circuit are also explored. The functionality of the proposed circuit is tested by PSPICE simulations for two distinct types of IZC-CDBA realization. The CMOS-based realization is checked through TSMC 0.18 µm level-7 technology parameters. The average DC current output, input dynamic range (± 450 µA), power consumption, temperature, total harmonic distortion (below – 30.2 dB), noise, and Monte-Carlo studies are performed to judge the efficiency level. The findings of the simulations match up nicely with the theoretical analysis. As an application of the suggested full-wave rectifier, RMS and average value computation for a sinusoidal signal is also provided. [ABSTRACT FROM AUTHOR]

Published
2024
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6. On the Electrical and Thermal Study of a MgZnO/ZnO HEMT for High Field Applications.

Author

Chakraborty, Saheb, Pal, Radha Raman, and Dutta, Sutanu

Subjects
HETEROJUNCTIONS, MOLE fraction, MODULATION-doped field-effect transistors, FERMI energy, SCHRODINGER equation
Abstract

In this work, a simple current equation of a HEMT based on MgZnO and ZnO heterojunction is proposed in the framework of electron velocity saturation. The mathematical formulation of drain current is presented as a function of mole fraction and device temperature. It is observed that the effect of the mole fraction of MgZnO has a significant role to modulate the drain current of the device. For example, the drain current is shifted by almost 9% for a change in mole fraction from 0.2 (236.5mA) to 0.5 (257.2mA) when no gate voltage is applied. In addition to this, the impact of environmental thermal variation is included in our study and a noticeable shift of drain current and other device parameter has been observed for a temperature range 300K to 500K. This work has also been extended to study the switching characteristics of the device in terms of mole fraction of MgZnO and ambient temperature. It is observed that the threshold voltage is shifted by 0.36 V for a change in mole fraction by 0.2. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Transitional Strength under Plasma: Precise Estimations of Astrophysically Relevant Electromagnetic Transitions of Ar 7+ , Kr 7+ , Xe 7+ , and Rn 7+ under Plasma Atmosphere.

Author

Biswas, Swapan, Bhowmik, Anal, Das, Arghya, Pal, Radha Raman, and Majumder, Sonjoy

Subjects
IONIZATION energy, ATOMIC spectroscopy, ATOMIC transitions, PLASMA density, PLASMA astrophysics, KRYPTON
Abstract

Highlights: What are the main findings? Atomic spectroscopy for Ar7+, Kr7+, Xe7+, and Rn7+ ions with high accuracy. Plasma screened ionization potential, atomic transition amplitudes and rates. Ionisation potential depression parameters. What is the implication of the main finding? Properties of the astrophysical medium. Properties of laboratory plasma. The growing interest in atomic structures of moderately stripped alkali-like ions in the diagnostic study and modeling of astrophysical and laboratory plasma makes an accurate many-body study of atomic properties inevitable. This work presents transition line parameters in the absence or presence of plasma atmosphere for astrophysically important candidates Ar7+, Kr7+, Xe7+, and Rn7+. We employ relativistic coupled-cluster (RCC) theory, a well-known correlation exhaustive method. In the case of a plasma environment, we use the Debye Model. Our calculations agree with experiments available in the literature for ionization potentials, transition strengths of allowed and forbidden selections, and lifetimes of several low-lying states. The unit ratios of length and velocity forms of transition matrix elements are the critical estimation of the accuracy of the transition data presented here, especially for a few presented for the first time in the literature. We do compare our findings with the available recent theoretical results. Our reported data can be helpful to the astronomer in estimating the density of the plasma environment around the astronomical objects or in the discovery of observational spectra corrected by that environment. The present results should be advantageous in the modeling and diagnostics laboratory plasma, whereas the calculated ionization potential depression parameters reveal important characteristics of atomic structure. [ABSTRACT FROM AUTHOR]

Published
2023
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13. Resistorless realization of tunable floating lossy inductors using single MO-CCCCTA.

Author

Paul, Tapas Kumar, Roy, Suvajit, and Pal, Radha Raman

Subjects
PARALLEL resonant circuits, CURRENT conveyors, INTEGRATED circuits, TEST design, ELECTRIC inductance
Abstract

In this study, a series RL type and a parallel RL type floating inductance simulators (FISs) are proposed. Only one multiple-output current controlled current conveyor transconductance amplifier (MO-CCCCTA) and one grounded capacitor are sufficient to realize these simulators. Nevertheless, both the recommended FISs have a floating capacitor fit to be very effective in today's integrated circuit fabrication. The proposed inductance simulator circuits are resistorless and their parameters can be tuned electronically. Furthermore, the proposed simulators require no matching conditions. Non-ideal as well as parasitic analysis of the proposed circuits has been carried out to strengthen the design idea. The workability of the circuits is tested through the construction of a second order low pass filter using a series RL inductance simulator and a parallel resonant circuit using parallel RL inductance simulator. PSPICE simulations with 0.18 µm TSMC CMOS technology have also been included to confirm the performance of the proposed simulators. [ABSTRACT FROM AUTHOR]

Published
2022
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18. New Electronically Tunable Third Order Filters and Dual Mode Sinusoidal Oscillator Using VDTAs and Grounded Capacitors

Author

Paul, Tapas Kumar, Pal, Radha Raman, Paul, Tapas Kumar, and Pal, Radha Raman

Abstract

This study introduces a third order filter and a third order oscillator configuration. Both the circuits use two voltage difference transconductance amplifiers (VDTAs) and three grounded capacitors. By selecting the input and output terminals properly, current mode and transimpedance mode low-pass and band-pass filters can be obtained without component matching conditions. The natural frequency (ω0) can be tuned electronically. The oscillator circuit provides voltage and current outputs explicitly. The condition of oscillation (CO) and the frequency of oscillation (FO) can be adjusted orthogonally and electronically. The workability of the configurations is judged using TSMC CMOS 0.18 μm technology parameter as well as commercially available LM13700 integrated circuits (ICs). The simulation results show that: for ±0.9V power supply, the power consumption is 1.08 mW for both the configurations, while total harmonic distortions (THDs) are less than 2.06% and 2.17% for the filter and oscillator configurations, respectively.

Published
2021

19. Tunable Lossy and Lossless Grounded Inductors Using Minimum Active and Passive Components

Author

Paul, Tapas Kumar, Roy, Suvajit, Pal, Radha Raman, Paul, Tapas Kumar, Roy, Suvajit, and Pal, Radha Raman

Abstract

In this contribution, nine new Grounded Inductance Simulators (GISs) using a single Multiple-Output Current Controlled Current Conveyor Transconductance Amplifier (MO-CCCCTA) and one grounded capacitor are proposed. Among them, two are lossless types and seven are lossy types. The use of a single grounded capacitor makes the circuits suitable for fabrication. All the proposed circuits are electronically tunable through the bias currents of MO-CCCCTA. Furthermore, no component matching conditions are needed for realizing them. The designed circuits are verified through PSPICE simulator with ± 0.9 V power supply. The simulation results show that for all the proposed circuits: maximum operating frequencies are about 12 MHz, power dissipation is less than 0.784 mW, Total Harmonic Distortions (THDs) are under 8.09%, and maximum output voltage noise at 1 MHz frequency is 14.094 nV/√Hz. To exhibit the workability of the proposed circuits, they are used to design band-pass, low-pass filter, parallel RLC resonator, and parasitic inductance cancelator.

Published
2021

20. Voltage Differencing Current Conveyor Based Voltage-Mode and Current-Mode Universal Biquad Filters with Electronic Tuning Facility

Author

Roy, Suvajit, Paul, Tapas Kumar, Maiti, Saikat, Pal, Radha Raman, Roy, Suvajit, Paul, Tapas Kumar, Maiti, Saikat, and Pal, Radha Raman

Abstract

The objective of this study is to present four new universal biquad filters, two voltage-mode multi-input-single-output (MISO), and two current-mode single-input-multi-output (SIMO). The filters employ one voltage differencing current conveyor (VDCC) as an active element and two capacitors along with two resistors as passive elements. All the five filter responses, i.e., high-pass, low-pass, band-pass, band-stop, and all-pass responses, are obtained from the same circuit topology. Moreover, the pole frequency and quality factor are independently tunable. Additionally, they do not require any double/inverted input signals for response realization. Furthermore, they enjoy low active and passive sensitivities. Various regular analyses support the design ideas. The functionality of the presented filters are tested by PSPICE simulations using TSMC 0.18 µm technology parameters with ± 0.9 V supply voltage. The circuits are also justified experimentally by creating the VDCC block using commercially available OPA860 ICs. The experimental and simulation results agree well with the theoretically predicted results.

Published
2021

22. Lossy & Lossless Capacitance Multipliers: A Series of Realization Using VDTAs & Single Grounded Capacitor.

Author

Paul, Tapas Kumar, Roy, Suvajit, and Pal, Radha Raman

Subjects
ELECTRIC capacity, CAPACITORS, ELECTRIC resistors, ELECTRONICS, VOLTAGE
Abstract

The article presents new realizations of capacitance multiplier circuits, employing two voltage differencing transconductance amplifiers (VDTAs) and one capacitor without any passive resistors. The equivalent capacitance value of the proposed capacitance simulators can be achieved electronically by regulating the DC bias currents of VDTAs. All the proposed realizations do not require any critical component matching conditions. The lossless floating negative capacitor multiplier (NCM) circuit is studied in detail. The capacitive cancellation scheme and a quadrature sinusoidal oscillator circuit are included to demonstrate the effectiveness of the circuit. The effect of the VDTAs non-idealities and parasitic on the realized circuits is analysed. SPICE simulation results using TSMC 0.18 µm CMOS technology parameters are presented to reflect the workability of the proposed NCM. The simulation results are in excellent agreement with the theoretical calculation. In addition to these, a comparison with the previously reported circuits is summarized to confirm the superiority of the recommended NCM. [ABSTRACT FROM AUTHOR]

Published
2022
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26. A Simple Analytical Model of a GaN MODFET to Study its DC and RF Performance.

Author

Shit, Prabir Kumar, Pal, Radha Raman, and Dutta, Sutanu

Subjects
ELECTRIC fields, DIRECT currents, ELECTRIC admittance, RADIO frequency, THRESHOLD voltage
Abstract

This work presents a theoretical study of a GaN MODFET considering accurate velocity field relation of GaN for a wide range of electric field. The analytical expression of different DC parameters such as drain current, mutual conductance and drain conductance of the device has been derived and their variation over different field regions has been investigated. This work has also been extended to study the RF parameters like cut-off frequency and maximum operating frequency of the device. The threshold voltage of the device is also derived and studied in terms of the thickness of the doped AlGaN layer and mole fraction of AlGaN. The mathematical model presented here is calibrated with the experimentally available results reported earlier and a good agreement has been observed. [ABSTRACT FROM AUTHOR]

Published
2022

30. A New Method of Realization of Four-Quadrant Analog Multiplier using Operational Amplifiers and MOSFETs

Author

Roy, Suvajit, Paul, Tapas Kumar, Pal, Radha Raman, Roy, Suvajit, Paul, Tapas Kumar, and Pal, Radha Raman

Abstract

In this article, we present a new method of realization of a four-quadrant analog multiplier using operational amplifiers (OP-AMPs) and MOSFETs. The realisation is based on the quadric nature of current of MOSFET operating in triode region.The multiplier can be derived from the proposed configuration with using either bipolar or complementary metal-oxide-semiconductor (CMOS) OP-AMPs.It can be used effectively with a wide range of supply voltages down to±1 V and can multiply over the full scale of the supply voltage if the OP-AMPs used are rail-to-rail low voltage OP-AMPs.The performancesoftheproposedmultiplier are tested through PSPICE (Cadence 16.6) simulation using TSMC 0.35 µm CMOS process parameters and arefoundto be inclose agreement with the theoretical predictions. Simulation results of the derived multiplier demonstrate a 3dB bandwidth of 9.6 MHz, a THD less than 1.21%, and anoutput referred noise less than 14nV/√Hz at 1 kΩ load condition.The maximum power consumption of the circuit is 0.75 mW. The applications of the proposed multiplier as a squarer, an amplitude modulator anda frequency doubler are also included.

Published
2017

36. Constrictive Pericarditis

Author

Pal, Radha Binod, primary, Ray, Rajendra Prasad, additional, Kundu, Chanchal, additional, Bagchi, Nilay, additional, and Sinha, Malay Kumar, additional

Published
2011
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37. An All-Optical Method of Binary Data Multiplication with Use of the Kerr Nonlinearity.

Author

Ghosh, Bijan, Pal, Radha Raman, and Mukhopadhyay, Sourangshu

Subjects
*PHOTONS, *NONLINEAR theories, *ELECTRONICS, *SIGNAL processing, *MULTIPLICATION, *ELECTRONIC data processing
Abstract

Photon has proved its better acceptability instead of electronics in data or signal processing because of many fundamental advantages. Many optical logic and arithmetic processors have already been proposed by scientists and technologists. We know that multiplication is an essential task in any data processing system. The paper proposes a completely all-optical technique of implemented data multiplication system, where optical nonlinear materials are used as switches. [ABSTRACT FROM AUTHOR]

Published
2010

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